The Geobacillus stearothermophilus splG gene encodes a thermophilic spore photoproduct lyase (SplG) that belongs to the family of radical S-adenosylmethionine (AdoMet) enzymes. The aerobically purified apo-SplG forms a homodimer, which contains one [4Fe-4S] cluster per monomer unit after reconstitution to the holoform. Formation of the [4Fe-4S] cluster was proven by quantification of the amount of iron and sulfur per homodimer and by UV and EPR spectroscopy. The UV spectrum features a characteristic absorbance at 420 nm typical for [4Fe-4S] clusters, and the EPR data were found to be identical to those of other proteins containing an [4Fe-4S] ؉ center. Probing of the activity of the holo-SplG with oligonucleotides containing one spore photoproduct lesion at a defined site proved that the enzyme is able to turn over substrate. In addition to repair, we observed cleavage of AdoMet to generate 5-deoxyadenosine. In the presence of aza-AdoMet the SplG is completely inhibited, which provides direct support for the repair mechanism.Spores of various Bacillus and Clostridium species are extremely resistant to harsh physical, chemical, and biological conditions allowing them to survive even under extreme conditions (1, 2). The oldest known viable spore was discovered from a Bacillus species, designated 2-9-3, in a 250 million-yearold salt crystal from the Permian Salado Formation (3). The resistance of spores from Geobacillus stearothermophilus toward heat is even so high that the survival of the organism during heat sterilization is used as a bioindicator for insufficient heat treatment (4).Particularly noteworthy is the unusually high stability of spores in the presence of UV light. For example under typical UV sterilization conditions, only about 70% of thermophilic G. stearothermophilus spores are inactivated. Under the same conditions, typical pathogens such as herpes simplex or polio viruses are fully destroyed (5, 6). In addition, UV irradiation of spores gives rise to different DNA lesions (7). Although in normal cells mostly cyclobutane pyrimidine dimers and (6-4) lesions (8) are formed, in spores the unusual photoproduct 5-thyminyl-5,6-dihydrothymine (SP), 2 depicted in Scheme 1 (7, 9), is exclusively generated (10). These differences in the photoreactivity may be because of an unusual packing of the DNA in spores (1, 11, 12) and the high amounts of dipicolinic acid (DPA) present in spores (13).During germination, the SP lesion is repaired either by the general nucleotide excision repair pathway (14, 15) or by a single enzyme, called spore photoproduct lyase, which is able to split the SP lesions directly back into two thymidines. Recent studies by Nicholsen et al. (16) and Broderick and co-workers (17) performed with the SP-lyase from Bacillus subtilis showed that the enzyme requires S-adenosylmethionine (AdoMet) as a cofactor for repair. A detailed sequence comparison, spectroscopic studies (18,19), and a recent labeling experiment (17) all provide evidence that the SplG is a member of the radical AdoMet enz...
